Explores waves in inhomogeneous media, covering initial and boundary conditions, numerical stability, eigen modes, and propagation principles.
Covers the behavior of electromagnetic waves in non-magnetized plasmas and the simplification of equations for non-collisional plasmas.
Explores turbulence characteristics, simulation methods, and modeling challenges, providing guidelines for choosing and validating turbulence models.
Explores electromagnetic waves in plasma, covering dispersion, fluid equations, wave geometry, and light propagation in the ionosphere.
Explores fluid flow, Bernoulli's theorem violation, viscosity, and necessary force for rotating cylinders with different fluids.
Explores resonant shallow water equations, stability analysis, eigenmodes, and clean modes in waves.
Introduces fluid statics basics, covering pressure, compressibility, forces on volume elements, and fundamental relations in thermodynamics.
Explores physical models for microsystems, ideal fluids, Navier-Stokes equations, incompressible fluids, Reynolds number, and molecular dynamics.
Covers the basics of fluid mechanics, including fluid properties, pressure, viscosity, and fluid behavior at rest and in motion.
Covers the foundations of incompressible fluid mechanics, conservation laws, and general flow equations, with a focus on practical issues and class logistics.
Explores Poiseuille flow, Navier-Stokes equation neglect, wave characteristics, and complex notation in fluid dynamics and wave phenomena.
